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Books > Science & Mathematics > Chemistry
Meeting the needs of the scientific community, these two must-have volumes are the only work to provide a thorough overview of all the important methods currently used in physical chemistry. The work bridges the gap between standard textbooks and review articles, covering a large number of methods, as well as the motivation behind their use. The first volume deals with the gas and condensed phase, while volume two looks at interfaces and biomolecules and materials. A uniform approach is adopted throughout, while the critical comparison of the advantages and disadvantages of each method makes this a valuable reference for physical chemists and other scientists working with these techniques. In short, these two volumes deserve a place in every chemistry library, whether academic or industrial.
Modern semiconductor and laser techniques would be unthinkable
today without a highly developed physics of solids. As tailored
materials increasingly gain significance, it is more important than
ever to understand the basics of crystalline materials and the
influence of their symmetry on phenomenological aspects. From the contents: Fundamentals Sample Preparation Definitions Special Tensors Thermodynamic Relationships Non-Tensorial Properties Structure and Properties Group Theoretical Methods Group Algebra; Projection Operators Concluding Remarks Exercises Appendix
With its impressive features, gold has led to completely new reaction types in recent years, which in turn have strongly influenced both organic catalysis and material science. Other fields where a significant amount of new results has been obtained include nanotechnology, self assembly/supramolecular systems and biochemical/medicinal chemistry. As a result, gold is one of the hottest topics in catalysis at the moment, with an increasing amount of research being carried out in this field. While focusing on homogeneous catalysis, this monograph also covers the main applications in heterogeneous catalysis. Following a look at the gold-catalyzed addition of heteroatom nucleophiles to alkynes, it goes on to discuss gold-catalyzed additions to allenes and alkenes, gold-catalyzed benzannulations, cycloisomerization and rearrangement reactions, as well as oxidation and reduction reactions. The whole is finished off with a section on gold-catalyzed aldol and related reactions and the application of gold-catalyzed reactions to natural product synthesis. Of interest to synthetic chemists and inorganic chemists, as well as organic chemists working in homogeneous catalysis, physical and technical chemists.
Black phosphorus (BP)-based two-dimensional (2D) nanomaterials are used as components in practical industrial applications in biomedicine, electronics, and photonics. There is a need to controllably shape engineered scalable structures of 2D BP building blocks, and their assembly/organization is desired for the formation of three-dimensional (3D) forms such as macro and hybrid architectures, as it is expected that these architectures will deliver even better materials performance in applications. Semiconducting Black Phosphorus: From 2D Nanomaterial to Emerging 3D Architecture provides an overview of the various synthetic strategies for 2D BP single-layer nanomaterials, their scalable synthesis, properties, and assemblies into 3D architecture. The book covers defect engineering and physical properties of black phosphorous; describes different strategies for the development of 2D nanostructures of BP with other species such as polymers, organic molecules, and other inorganic materials; offers a comparative study of 3D BP structures with other 3D architectures such as dichalcogenides (TMDs, graphene, and boron nitride); and discusses in detail applications of 3D macrostructures of BP in various fields such as energy, biomedical, and catalysis. This is an essential reference for researchers and advanced students in materials science and chemical, optoelectronic, and electrical engineering.
Drug Discovery with Privileged Building Blocks traces back PharmaBlock's founding philosophy of designing privileged building blocks. High-quality building blocks are crucial not only to biological activities of different molecules but also to ADMET properties, which eventually will impact the success rate of drug discovery projects. A thorough study of how building blocks perform in drug molecules and a regular analysis of new building block structures in the latest researches have proven to be a fruitful strategy to generate novel building blocks. Using this strategy, PharmaBlock has supplied the drug industry with a great number of building blocks, which are increasingly being adopted by drug hunters, and these are identified in this book. Each chapter may be read and studied without learning the previous chapters. This book will be a good starting point for novice medicinal chemists, and veteran medicinal chemists will find it useful as well. Key Feature The book covers privileged building blocks appearing most frequently on patents for novel drugs. The latest relevant tactics are explained in the context of drug design and medicinal chemistry. Key synthesis, especially large-scale synthesis, is described. The most recent literature references are cited.
This is the fifth volume of "Advances in Sonochemistry" the first
having been published in 1990. The definition of sonochemistry has
developed to include not only the ways in which ultrsound has been
harnessed to effect chemistry but also its uses in material
processing. Subjects included range from chemical dosimetry to
ultrasound in microbiology to ultrasound in the extraction of plant
materials and in leather technology.
The major tasks facing engineers and scientists in industrial chemistry are the operation and optimization of existing processes and the design of new or improved ones. Computational methods and tools are saving time and costs in process development and optimization if they are used complementarily to experimental methods. Based on the latest online edition of Ullmann's Encyclopedia of Industrial Chemistry, and containing articles yet unpublished in print, this ready reference meets the need for a comprehensive survey of the mathematical fundamentals, complementary computational approaches as well as the application of modeling and simulation in chemistry and engineering. Each of the detailed and carefully edited articles is written by relevant international experts, including Bruce A. Finlayson (University of Washington, USA ) Lorentz T. Biegler (Carnegie Mellon University Pittsburgh, USA) Donald Boyd (Indiana University-Purdue University at Indianapolis, USA) Vladimir Hlavacec (University of Buffalo, USA) Philippe A. Bopp (University Bordeaux, France) Steffen Hardt (Technical University Darmstadt, Germany) Readers benefit from the rigorous and cross-indexed nature of the parent reference, and will find both broad introductory information as well as in-depth details of significance to industrial and academic environments. The handbook is rounded off by keyword and author indexes. From the contents: Mathematics in Chemical Engineering Model Reactors and their Design Equations Mathematical Modeling Molecular Modeling Molecular Dynamics Simulation Computational Fluid Dynamics Design of Experiments Modeling and Simulation of Microreactors
2D infrared (IR) spectroscopy is a cutting-edge technique, with applications in subjects as diverse as the energy sciences, biophysics and physical chemistry. This book introduces the essential concepts of 2D IR spectroscopy step-by-step to build an intuitive and in-depth understanding of the method. This unique book introduces the mathematical formalism in a simple manner, examines the design considerations for implementing the methods in the laboratory, and contains working computer code to simulate 2D IR spectra and exercises to illustrate involved concepts. Readers will learn how to accurately interpret 2D IR spectra, design their own spectrometer and invent their own pulse sequences. It is an excellent starting point for graduate students and researchers new to this exciting field. Computer codes and answers to the exercises can be downloaded from the authors' website, available at www.cambridge.org/9781107000056.
A contribution to the series on Natural Products Chemistry of Global Plants, Natural Products Chemistry of Botanical Medicines from Cameroon focuses on the sources and chemistry of natural products from plants in Cameroon, West Africa. The plants selected offer an opportunity to trace a route through history from ancient civilizations to the modern day, showing the important value to man of natural products in medicines and in foods. This book highlights how many of the extracts from Cameroon are today associated with important drugs, nutrition products, beverages, perfumes, cosmetics and pigments, as well as presenting their complex chemistry and structure. Key Features: Forms an important part of the series on Natural Products Chemistry of Global Plants, as Cameroon is a country with rich experience in the use of medicinal plants and with a wide diversity of botanical resources Addresses the current development of pharmacognosy research in Cameroon Provides readers with updated information on the chemistry and pharmacology of natural products with pharmaceutical potential Covers an extensive range of chemical, botanical and pharmacological diversities Xavier Siwe Noundou is a Scholar/Scientist based at Rhodes University in Grahamstown, South Africa. He has been a EU FP7 Marie Curie Fellow (2015-2016), Kaposvar University in Hungary (2015, 2016), Trakia Univesity in Bulgaria (2016), TWAS Fellow (2013), National Research Foundation South Africa Fellow (2014-2016). Dr Noundou works on Medicinal Chemistry focusing on Chemistry, Pharmacognosy and Nanotechnology. His main research interests include terrestrial natural products chemistry (from Cameroon and South Africa) and marine natural products chemistry (from the South African coastline): bioactive metabolites isolated as potential antiparasitic, antimicrobial, antiviral and antiproliferative candidates. He is author of more than forty scientific publications in his field of expertise.
Drug Discovery with Privileged Building Blocks traces back PharmaBlock's founding philosophy of designing privileged building blocks. High-quality building blocks are crucial not only to biological activities of different molecules but also to ADMET properties, which eventually will impact the success rate of drug discovery projects. A thorough study of how building blocks perform in drug molecules and a regular analysis of new building block structures in the latest researches have proven to be a fruitful strategy to generate novel building blocks. Using this strategy, PharmaBlock has supplied the drug industry with a great number of building blocks, which are increasingly being adopted by drug hunters, and these are identified in this book. Each chapter may be read and studied without learning the previous chapters. This book will be a good starting point for novice medicinal chemists, and veteran medicinal chemists will find it useful as well. Key Feature The book covers privileged building blocks appearing most frequently on patents for novel drugs. The latest relevant tactics are explained in the context of drug design and medicinal chemistry. Key synthesis, especially large-scale synthesis, is described. The most recent literature references are cited.
Knowledge of the basic interactions that take place between geological materials and different substances is the first step in understanding the effects of adsorption and other interfacial processes on the quality of rocks and soils, and on driving these processes towards a beneficial or neutral result. Interfacial Chemistry of Rocks and Soils examines the different processes at solid and liquid interfaces of soil and rock, presenting a complete analysis that emphasizes the importance of chemical species on these interactions. This Second Edition features novel results in the field and expanded coverage of the kinetics of interfacial processes. New content includes models of heterogeneous isotope exchange, sorption isotherms for heterovalent cation exchange, as well as sorption of anions by chemically modified clays. Summarizing the results and knowledge of the authors' research in this field over several decades, this volume: Explores the individual components of the studied systems: the solid, the solution, and the interface Discusses the characteristics and thermodynamics of the interface Profiles the most important analytical methods in the study of interfacial processes Demonstrates transformations initiated by interfacial processes Outlines avenues of treatment that may solve geological, soil science, and environmental problems Drawn chiefly from the authors' years of research at the Imre Lajos Isotope Laboratory in the Department of Physical Chemistry at the University of Debrecen in Hungary, this book discusses chemical reactions on the surfaces/interfaces of soils and rocks; examines the role of these processes in environmental, colloid and geochemistry; and explores the effects on agricultural, environmental and industrial applications.
• Familiarizes the reader with the basic terminology applied to toxicology • Explains how the exposure to a chemical is critically important when estimating the human health risk • Provides a balanced approach, neither spotlighting sensational findings nor downplaying potential real risks
Revised, updated and expanded to continue to provide the most accurate, compact and practical source on fluoropolymers. Explores breakthroughs in understanding property-structure relationships, new polymerization techniques and the chemistry underlying polymers. Fluoropolymers are high up on the specialty polymers group and due to their unique properties, are naturally part of the solution to industrial sustainability challenges. Describes the technology of fluoropolymers, including thermoplastic and elastomeric products. Expands upon critical environmental aspects of fluoropolymers and recycling of these special polymers
Offers transferrable problem-solving ideas and skills applicable for other disciplines and future careers. Provides new students with support and inspiration for their college experience. Includes guidance for successful interactions with professors, peers, professionals, and others. Encourages thoughtful determination of desired outcomes from the college experience and shaping ones actions toward accomplishing those objectives.
Succeed in your organic laboratory course with MACROSCALE AND MICROSCALE ORGANIC EXPERIMENTS, Seventh Edition. This proven, authoritative manual emphasizes safety and features new themed Modules experiments with real world applications. Using the manual's mix of macroscale and microscale experiments, you'll gain the knowledge and confidence you need to perform a wide variety of experiments, as well as experience working with conventionally-sized glassware.
This clear, concise Complete Revision & Practice book from CGP is a perfect way to prepare for the Edexcel A-Level Chemistry exams - it covers every topic from both years of the course. It's fully up-to-date for the new exam specifications for 2015 and beyond, with straightforward explanations, helpful examples and full-colour diagrams throughout. Practice questions and exam-style questions (with answers) are included for every topic, and the book is rounded off with a section of in-depth advice on Practical Skills. And finally, a free Online Edition of the whole book is included - just use the code printed inside the book to access it on your PC, Mac or tablet!
Provides practical solutions for the treatment and recycling of distillery waste illustrated by specific case studies. Focuses on recent industry practices and preferences, along with newer approaches for wastewater treatment. An instructive compilation of treatment approaches, including advanced physicochemical and integrated/sequential methods. Covers biocomposting of sludge and effluent and biodiesel production from distillery waste for recycling and sustainable development. Emphasizing the relationship of metagenomics with organometallic compounds of distillery waste. Discusses the role of ligninolytic enzymes and bioreactors in distillery wastewater treatment.
A contribution to the series on Natural Products Chemistry of Global Plants, Natural Products Chemistry of Botanical Medicines from Cameroon focuses on the sources and chemistry of natural products from plants in Cameroon, West Africa. The plants selected offer an opportunity to trace a route through history from ancient civilizations to the modern day, showing the important value to man of natural products in medicines and in foods. This book highlights how many of the extracts from Cameroon are today associated with important drugs, nutrition products, beverages, perfumes, cosmetics and pigments, as well as presenting their complex chemistry and structure. Key Features: Forms an important part of the series on Natural Products Chemistry of Global Plants, as Cameroon is a country with rich experience in the use of medicinal plants and with a wide diversity of botanical resources Addresses the current development of pharmacognosy research in Cameroon Provides readers with updated information on the chemistry and pharmacology of natural products with pharmaceutical potential Covers an extensive range of chemical, botanical and pharmacological diversities Xavier Siwe Noundou is a Scholar/Scientist based at Rhodes University in Grahamstown, South Africa. He has been a EU FP7 Marie Curie Fellow (2015-2016), Kaposvar University in Hungary (2015, 2016), Trakia Univesity in Bulgaria (2016), TWAS Fellow (2013), National Research Foundation South Africa Fellow (2014-2016). Dr Noundou works on Medicinal Chemistry focusing on Chemistry, Pharmacognosy and Nanotechnology. His main research interests include terrestrial natural products chemistry (from Cameroon and South Africa) and marine natural products chemistry (from the South African coastline): bioactive metabolites isolated as potential antiparasitic, antimicrobial, antiviral and antiproliferative candidates. He is author of more than forty scientific publications in his field of expertise.
Exam Board: SQA Level: Higher Subject: Chemistry Two books in one! Combining a revision guide and a full set of practice test papers, this fantastic resource is all you need to revise for the exam. The revision guide • Covers all of the topics in the CfE Higher Chemistry curriculum, broken down into manageable chunks for easy revision • Clearly explains key concepts, research evidence and real-life applications • Contains Quick Tests to let students check their knowledge and understanding as they go along The practice test papers • Are in the format and the style of the SQA exam, giving students an opportunity to practice taking the Higher Chemistry exam Marking instructions and sample answers are provided online, so students can check their progress.
This book is an up-to-date review of the most important plasma-based techniques for material modification, from microelectronics to biological materials and from fusion plasmas to atmospheric ones. Each its technical chapters is written by long-experienced, internationally recognised researchers. The book provides a deep and comprehensive insight into plasma technology and its associated elemental processes and is illustrated throughout with excellent figures and references to complement each section. Although some of the topics covered can be traced back several decades, care has been taken to emphasize the most recent findings and expected evolution. The first time the word 'plasma' appeared in print in a scientific text related to the study of electrical discharges in gases was 1928, when Irving Langmuir published his article 'Oscillations in Ionized Gases'. It was the baptism of the predominant state of matter in the known universe (it is estimated that up to 99% of matter is plasma), although not on earth, where the conditions of pressure and temperature make normal the states of matter (solid, liquid, gas) which, in global terms, are exotic. It is enough to add energy to a solid (in the form of heat or electromagnetic radiation) to go into the liquid state, from which gas is obtained through an additional supply of energy. If we continue adding energy to the gas, we will partially or totally ionise it and reach a new state of matter, plasma, made up of free electrons, atoms and molecules (electrically neutral particles) and ions (endowed with a positive or a negative electric charge).
Covers the fundamental instrumentation and techniques Discusses HRMS-based phytochemical research details Focuses strictly on the phytochemical considerations
Bacterial cellulose (BC) is a natural polymer produced by different microbial cells. Its unique structural, physico-chemical, mechanical, thermal, and biological properties offer much potential for use in diverse applications in the biomedical, electronics, energy, and environmental fields, among others. This text provides an overview of the synthesis, characterization, modification, and application of BC. * Discusses sources, characterization, and biosynthesis of BC * Covers composites and aerogels based on BCs * Describes development of BCs from waste and challenges in large-scale production of BCs * Explores a variety of applications such as environmental, industrial, and biomedical This book will be of great interest to researchers and industry professionals in materials science, chemical engineering, chemistry, and other related fields seeking to learn about the synthesis and application of this important material.
* Covers material testing and development using computational intelligence * Highlights the technologies to integrate computational intelligence and materials sciences * Discusses how computational tools can generate new materials with advanced applications * Details case studies and detailed applications * Investigates challenges in developing and using computational intelligence in materials science * Analyzes historic changes that are taking place in designing of materials
The progress in device technologies are surveyed in this volume. Included are Si/ (Si-Ge) heterojunctions for high-speed integrated circuits. Schottky-barrier arrays in Si and Si-Ge alloys for infrared imaging, III-V quantum-well detector structures operated in the heterodyne mode for high-data-rate communications, and III-V heterostructures and quantum-wells for infrared transmissions. |
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